Phone/Modem Hardware Cross Reference List - Hardware Hacking General
Phone/Modem Hardware Cross Reference List
Summary: A list of all current Baseband/Cellular Processors (BP/CP) in use.
Skill Level: Medium
==================================================
This is a hardware developer thread, not a Q/A thread!
Do NOT post questions here, they will not be answered.
(Unless it is directly related to this topic or data herein.)
Only post new or corrected information if you have it.
==================================================
Purpose
This thread lists the actual modem hardware used in our beloved and hackable
phones, as reference to users, developers, tech-journalists and bloggers. Why?
Because it is well known that the modem-hardware manufacturers are trying
their best to keep the lid on the contents, functionality and documentation of
their latest radio marvels, thinking it is a competitive advantage. However,
they could not be more wrong, as I have already explained here. The
development of new radio hardware is at least 5-10 years behind that of other
hardware sectors. I could give many examples, but I will not, since ranting is
just as counter productive. We are thus left on our own, to find out what is
actually going on inside the radio part of our phone.
The first step in this process, is to find out exactly what baseband processor
your phone is using, there are many ways to do this, but none of these ways are
readily available for the average/regular phone user. Often one have to access
hidden menus and other functionality to find this information, and when you do
find it, it is rarely obvious without some experience.
So I am starting to collect a list of phones and what radio hardware they use,
preferably with links to specification sheets, pictures and other references.
The most interesting information can be summarized in a table with
the following headers:
Code:
[SIZE=2]Phone General Name - "PublicName" eg: Samsung Galaxy S2
Phone Model Number - "ModelName" eg: GT-I9100
Phone Device Type - "DeviceType" eg: Phone
Phone FCC ID - "FCC" eg: A3LGTI9100
BaseBand Manufacterer - "BM" eg: Intel/Infineon
BaseBand Processor - "BP" eg: X-GOLD 626
BB Processor Platform - "BPP" eg: XMM 6260
BB Processor Chip Label - "BPL" eg: "PMB 9811 XG 626"
BB Tranceiver RF/DSP - "DSP" eg: SMARTi UE2
BB DSP Chip Label - "DSPL" eg: "PMB 5712"
Firmware Download Links - "FWL" eg: <URL to "XDA-SGS2-stock-modems">
Firmware Sources Links - "FWS" eg: <URL to github with firmware sources>
BP/RF Pictures - "PIC" eg: <URL to picture(s)>
Special Notes - "NOTE" eg: "Uses the XMM 6260 platform"
[/SIZE]
Important Note
The modem-platform consists of a baseband processor and a radio/transceiver
processor (DSP), but these may be separate physical pieces of hardware and
made by different manufacturers, or they may be integrated into one piece of
SoC or PoP. Here we are most concerned with the BP running a RTOS kernel and
not with the PHY-level, and thus we ignore/omit the DSP manufacturer in the
table.
If you have access to any of this information, and it is not yet available
here, please post as much detail as possible, and I will eventually include
it on this list. Please, make it easy for me by pre-formatting your data
according to the above table.
For finding new modem information, please see "Guessing the Baseband.." in
the third post below.
Although there are many other devices that may also be of modem interest,
I focus primarily on Phones/Tablets/Pads until further notice. Eventually,
when I have more time I will make a BP cross reference table, listing more
BP details.
Things We Need
Modem baseband manufacturers are very reluctant with sharing information
regarding their products. That means that reference manuals, datasheets and
application notes, are all very hard to find and come by. If you have any of
these, please post a link where they can be found. Do not post any stolen
and illegally obtained information, or we risk getting into trouble for
knowing too much.
The Modem Hardware Cross Reference Tables
Last Table Update: 2012-04-30
Table-1: Phone Baseband Processor List
Code:
[SIZE=2]
-------------------------------------------------------------------------------
PublicName ModelName DeviceType FCCID BP FWL FWS PIC Notes
-------------------------------------------------------------------------------
HTC One X Phone NM8PJ83100 XGOLD626
Huawei 3G Hi-Universe E369 [USB 3G Modem] QISE369 XGOLD626 (Russian distrubutor: Merlion)
Huawei MU733/MU739 [PC/CE Module] QISMU739 XGOLD626
Lava XOLO X900 Phone XGOLD626 (still unknown market and producer)
Lenovo K800 Pad PD9 ??? XGOLD626 (No FCC in China!)
LG Optimus 3D LG-P920 Phone BEJP920 XGOLD626
LG Thrill 4G LG-P925G Phone BEJP925 XGOLD626
LG Thrill 4G LG-P929G Phone BEJP929 XGOLD626
Meizu MX Phone XGOLD626
Samsung Galaxy S2 GT-I9100 Phone A3LGTI9100 XGOLD626
Samsung Galaxy Tab GT-P1000 Phone A3LGTP1000 XGOLD616
Samsung Galaxy Nexus GT-I9250 Phone A3LGTI9250 XGOLD626
<Work In Progress>[/SIZE] [SIZE=2]
AMOD ACE9000 PC/CE Module TLTACE9000 XGOLD616[/SIZE] [SIZE=2]
Google Nexus S ?? Phone
HTC Evo Phone NM8 ?? QSD8650/PM7540/RTR6500
HTC Titan II Phone NM8 ?? MDM9200
Huawei Ascend D Quad Phone QIS ???
Huawei E392 E392u-511 USB LTEmm QISE392U-511
Huawei E353 E352s-6 USB HSPA+ QIS ???
LG Optimus Black LG-P970H Phone BEJP970 ??
LG Optimus 4X HD LG-P880 Phone BEJ ???
LG Optimus 2X LG-P990 Phone BEJ ???
Motorola Droid RAZR Phone ??? MDM6600
Samsung Galaxy Note GT-N7000/I9220 Phone A3LGTN7000 ???
Samsung Galaxy S2 SPH-D710 Phone A3LSPHD710?? QSC6085 Aka. "Sprint Epic 4G Touch"
Samsung Galaxy S3 GT-I9300 Phone A3LGTI9300 ???
Sony Experia S LT26i Phone PY7A3880120
ZTE Mimosa X Phone ??? ICE8065
[/SIZE]
Table-2: Manufacturer BP/RF Cross-Reference List
Code:
[SIZE=2]-------------------------------------------------------------------------------
BP BM BPP BPL DSP DSPL PIC DATA NOTE
-------------------------------------------------------------------------------
ICE8060 Icera Icera400 "----" ICE8260 "----" - - -
ICE8061 Icera Icera410 "----" ICE8261 "----" - - -
ICE8065 Icera Icera450 "----" ICE9225 "----" - - -
XGOLD616 Intel/Infineon XMM6160 "PMB 8824 XG 616" SMARTi UE "5703" - - The BPL is marked as "9801" in product briefs, but on chip is usually "8824"[/SIZE] [SIZE=2]
XGOLD618 Intel/Infineon XMM6180 "PMB 9800 XG 618" SMARTi UE "5703" - - -
XGOLD626 Intel/Infineon XMM6260 "PMB 9811 XG 626" SMARTi UE2 "5712" - - This chip is now marked with "i" for intel, without "PMB"
XGOLD636 Intel XMM6360 "PMB ---- XG 636" SMARTi UE3 "----" - - -
XGOLD706 Intel XMM7060 "PMB ---- XG 706" SMARTi UE3 "----" - - -
XGOLD716 Intel XMM7160 "PMB ---- XG 716" SMARTi 4G "----" - - -
ThorM7300 ST-Ericsson ThorM7300 ---- ---- ---- - DATA http://www.stericsson.com/products/m7300-thor.jsp
ThorM7400 ST-Ericsson ThorM7400 ---- ---- ---- - DATA http://www.stericsson.com/products/m7400-thor.jsp http://www.stericsson.com/images/product/m7400-thin-modem-platform.jpg
ThorM5730 ST-Ericsson ThorM5730 ---- ---- ---- - DATA http://www.stericsson.com/products/m5730-thor.jsp
ThorM6718 ST-Ericsson ThorM6718 ---- ---- ---- - DATA http://www.stericsson.com/products/m6718-thor.jsp
-------------------------------------------------------------------------------
"----" = Unknown
"-" = Not Available
[/SIZE]
For modems without any known devices/implementation or incomplete data, we
put them in quarantine in the below table, before adding them to Table-2,
above.
Table-3: These need more data/implementations
Code:
[SIZE=2]
Various modems from different manufacterers.
-------------------------------------------------------------------------------
Broadcom
[/SIZE] [SIZE=2] ------------------------------------------------------------------------------------------------
BCM2091 EDGE/HSPA Multi-Mode, Multi-Band Cellular Transceiver
BCM2153 7.2-Mbps HEDGE 65-nm Multimedia Baseband Processor
BCM21553 Single-Chip 3G HSUPA Multimedia Baseband Processor
BCM2157 Mass-Market 3G HSDPA Android Baseband
BCM21654 Advanced Low-Cost HSPA/EDGE Multimedia Baseband Processor
BCM21654G Advanced Low-Cost HSPA/EDGE Multimedia Baseband Processor
BCM28145/28155 Dual Core 720p/1080p HSPA+ Baseband Processors
BCM28150 1080p 4G HSPA+ Smartphone Processor
------------------------------------------------------------------------------------------------
Icera (NVidia) [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -------------------------------------------------------------------------------
Icera 450 HSPA+ Smartphone and Tablet platform Livanto ICE8065 baseband and ICE9225 RF
Icera 410 10Mhz LTE and Dual Cell platform Livanto ICE8061 baseband and ICE8261 RF
Icera 400 HSPA+ Mobile Broadband platform Livanto ICE8060 baseband and ICE8260 RF
-------------------------------------------------------------------------------
Marvell[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -------------------------------------------------------------------------------------------------------
SoC 2G UMTS/WCDMA TD-SCDMA LTE APP_CPU VIDEO 3D_GFX
-------------------------------------------------------------------------------------------------------
PXA910 GSM/EDGE HSDPA Rel.5 - - Marvell ARMv5 800 MHz WMMX2
PXA918 GSM/EDGE - TD-HSPA Rel.7 - Marvell ARMv5 624 MHz WMMX2
PXA920 GSM/EDGE - TD-HSP Rel.7 - Marvell ARMv5 800 MHz
PXA920H GSM/EDGE - TD-HSPA Rel.7 - Marvell ARMv5 1 GHz WMMX2
PXA968 GSM/EDGE HSPA - - Marvell ARMv7 1 GHz WMMX2
PXA978 GSM/EDGE HSPA+ TD-HSPA Rel.7 - ARM Cortex A9 1.2 GHz NEON
PXA1202 GSM/EDGE - TD-HSPA Rel.8 -
PXA1801 GSM/EDGE HSPA Rel. 8 TD-HSPA Rel.8 FDD/TD Rel.9 - - -
PXA1802 GSM/EDGE - TD-HSPA Rel.8 FDD/TD Rel.9 - - -
-------------------------------------------------------------------------------------------------------
Mediatek[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -------------------------------------------------------------------------------
MT6223
MT6235
MT6236
MT6238
MT6239
MT6252
MT6253
MT6268
MT6276M
MT6516
MT6573
MT6575
[/SIZE] [SIZE=2] AD6723 LeMans65
AD6724 AtlasULC
AD6726 Atlas2HULC
AD6900 LeMans
AD6903 LeMans-LCR+
AD6905 Laguna
MT6A01
-------------------------------------------------------------------------------
Qualcomm[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -------------------------------------------------------------------------------
MDM8225 Gobi HSPA+R10,LTEadv
MDM9225 Gobi HSPA+R10,LTEadv, LTEc4
MDM9625 Gobi HSPA+R10,LTEadv, LTEc4
[/SIZE] [SIZE=2] MDM6200 HSPA+ 14.4 Mbps
MDM6600 HSPA+ 14.4 Mbps and CDMA2000® 1xEV-DO Rev. A/Rev. B
MDM8220 2xHSPA+ 42 Mbps
MDM9200 LTE&2xHSPA+ 100 Mbps
MDM9600 LTE&2xHSPA+ 100 Mbps with full backward compatibility to dual carrier HSPA+ and EV-DO Rev. A/Rev. B
[/SIZE] [SIZE=2] APQ8055
APQ8060
APQ8060 + MDM9200
MSM 7200
MSM 7200A
MSM 7201A
MSM 7225
MSM 7227
MSM 7230
---------------------------------------------------------------------------------------------
65nm 45nm 45nm 28nm
---------------------------------------------------------------------------------------------
HTC Status Sony Ericsson Xperia PLAY Samsung Galaxy S II (T-Mobile) Coming soon
HTC HD7 ThunderBolt by HTC HTC EVO 3D
Samsung Focus Blackberry Bold 9930 HTC Sensation 4G
HTC Arrive Blackberry Torch 9850 T-Mobile myTouch 4G Slide
HTC Evo Shift 4G HTC Jetstream
---------------------------------------------------------------------------------------------
QSD8250 MSM8655 MSM8660 MSM8960 Pro
QSD8650 MSM8255 MSM8260 APQ8064
MSM7227 APQ8055 APQ8060 MPQ8064
MSM7627 MSM7630 MSM8960
MSM7227A MSM7230 APQ8060A
MSM7627A MSM8660A
MSM7625 MSM8260A
MSM7225 APQ8030
MSM7625A MSM8930
MSM7225A MSM8630
MSM8230
MSM8627
MSM8227
MSM8625
MSM8225
---------------------------------------------------------------------------------------------
Renesas[/SIZE] [SIZE=2]
---------------------------------------------------------------------------------------------
BP Platform Link
---------------------------------------------------------------------------------------------
SP2531
MP5225
MP5232 http://renesasmobile.com/products/product-renesas-mobile-MP5232.pdf
---------------------------------------------------------------------------------------------
Spreadtrum [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -------------------------------------------------------------------
Basebands LTE SCDMA EDGE GPRS GSM Application
-------------------------------------------------------------------
SC9610 + + + + + Modem * http://www.spreadtrum.com/en/products/basebands/view/SC9610
SC8810 + + + + Smartphone http://www.spreadtrum.com/en/products/basebands/view/sc8810
SC8805G + + + + Smartphone http://www.spreadtrum.com/en/products/basebands/view/sc8805g
SC8800G + + + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/sc8800g
SC8801G + + + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/sc8801g
SC8802G + + + + Modem * http://www.spreadtrum.com/en/products/basebands/view/sc8802g
SC6820 + + + Smartphone http://www.spreadtrum.com/en/products/basebands/view/sc6820
SC6810 + + + Smartphone http://www.spreadtrum.com/en/products/basebands/view/sc6810
SC6800H + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/sc6800h
SC6620/10 + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/sc6620
SC6600L6 + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/SC6600L6
SC6600L7 + + Feature phone http://www.spreadtrum.com/en/products/basebands/view/SC6600L7
ST-Ericsson[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Platform
----------------------------
NovaThorU9500 ST-Ericsson
NovaThorU8500 ST-Ericsson
NovaThorL9540 ST-Ericsson
[/SIZE] [SIZE=2] ThorM7300 ST-Ericsson Thor M7300 HSPA+ DATA http://www.stericsson.com/products/m7300-thor.jsp
ThorM7400 ST-Ericsson Thor M7400 LTE, HSPA+ DATA http://www.stericsson.com/products/m7400-thor.jsp http://www.stericsson.com/images/product/m7400-thin-modem-platform.jpg
ThorM5730 ST-Ericsson Thor M5730 HSPA+ DATA http://www.stericsson.com/products/m5730-thor.jsp
ThorM6718 ST-Ericsson Thor M6718 TD-HSPA DATA http://www.stericsson.com/products/m6718-thor.jsp
Texas Instruments [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] -----------------------------------------
Device Components/Functionality:
-----------------------------------------
OMAPV1035 ARM926EJ + GSM/GPRS/EDGE digital baseband, RF, and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12733&contentId=27883
OMAPV1030 ARM926TEJ + GSM/GPRS/EDGE digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12483&contentId=4664
OMAP850 ARM926TEJ + EDGE digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12000&contentId=4679
OMAP750 ARM926TEJ + GSM/GPRS digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12001&contentId=4678
OMAP733 ARM926TEJ + GSM/GPRS digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12002&contentId=4677
OMAP730 ARM926TEJ + GSM/GPRS digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12003&contentId=4676
OMAP710 ARM925 + GSM/GPRS digital baseband and applications processor http://focus.ti.com/general/docs/wtbu/wtbuproductcontent.tsp?templateId=6123&navigationId=12315&contentId=4675
VIA Telecom [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] < VIA Telecom doesn't have any products worth mentioning! >
[/SIZE]
Guessing the Baseband Processor
Guessing the Baseband Processor
In the darkness of cellular/baseband processor manufacturers lack of
information on their products, the rest of the world have to resort to various
methods, usually only reserved to avid hackers, just to get minimal
information on what is acting behind the dark curtains of your phones radio
processor.
These methods involve everything from common Google-Fu, FCC image inspection,
deep hardware tear-apart guides to firmware investigation.
Therefore in order to make this more simple for common users, I have designed
the following baseband processor (BP) table, listing some detailed features of
the more common and modern smartphone BP's. Thus when you are reading the
awesome specs about a particular phone, you should be able to use that info to
guess what BP is used within that device.
Useful Resources:
Code:
Google - Search for terms like "baseband, cellular, processor, radio, modem"
FCC ID - Search for manufacturer specific device id's, then go to "details"
and look carefully on the internal photos.
The Inside Picture
While some companies are making large money on tearing apart and analyzing new
electronic devices and components, to the sub-microscopic level, there are
several less costly alternatives you can use to find out "what's inside".
These are often referred to as "tear-apart", "teardown" guides, or "may just
be a simple picture gallery of the internal parts.
The places to help you out, is as always Google Image Search, but it can a
slow process. Better are to search common websites already known for their
free quality teardowns and high-resolution images, that you will surely need.
Here is a few.
AnandTech
AndroidCentral
iFixit
TechInsights
Ripping it Apart
If you can't find any "tear-apart" guides or useful photos anywhere, you may
consider opening up your device and find out by your self. If you do so, keep
in mind that you will surely void any warranty while risking to brick your
device by breaking something microscopic inside. Don't forget to take many
Hi-Res photos of your operation so that you can share it with the rest of us!
When doing this it is also of essence to have the right tools. A good tool-box
reference is to use similar tools as those used by the iFixit tear-down
engineers. Here are a few good toolkits, for reference.
Trolling the FCC
The Federal Communications Commission (FCC) website is a great place to start
finding some juicy information. All phones that will enter the European or
United States markets, are required to have an FCC license/approval. Thus all
radio devices available there should also be available at FCC. Therefore phone
manufacturers wait until the very last moments, before release, to apply for
these licenses. Although all mobile manufacturers apply for FCC non-disclosure
agreements, there are usually juicy internal pictures, radio specifications,
measurements and component labeling placement data. The trick is to find the
FCC ID of the device you are interested in. This is not always very easy for
new unknown devices, but you may guess by knowing your the manufacturers
"Grantee Code". But there are many other search possibilities as well.
The FCC ID Search Form requires:
Code:
"[COLOR=Red][I]Grantee Code[/I][/COLOR]" - First three characters of the FCC ID
"[COLOR=Green][I]Product Code[/I][/COLOR]" - Remaining characters of the FCC ID
[COLOR=Red][COLOR=Black]---
Example: [/COLOR]A3L[/COLOR][COLOR=Green]GTI9100[/COLOR]
Here is a table of some common Grantee Codes:
Code:
[SIZE=2]---------------------------------------
Company Code
---------------------------------------
AMOD TLT
Apple
Dell
HP
HTC NM8
Huawei QIS
Lenovo PD9
LG BEJ
Motorola
Nokia BCG,LJP,PPI,QTL
Samsung A3L
Sony-Ericsson PY7
Toshiba
ZTE
[/SIZE]
Note-1: A company may have more than one Grantee Code.
Note-2: A company may "outsource" their FCCID to their internal device's OEMs.
Trolling the Patent Bureaus
It is almost surprising how many hardware secrets can be revealed during the
many IP and Patent litigation's, during which a lot of material must be
presented in open court documents. Not to mention all the new devices they
try to patent by huge broad spectrum "patent-jacking" efforts. (Apple, Samsung
and Broadcom are always fun!)
Google Advanced Patent Search
European Patent Office
Free Patents Online (FPO)
United States Patent and Trademark Office
Directory of Intellectual Property Offices
Scraping OEM Websites
Look at the baseband OEM 's websites for hints on what phones and operating
systems they brag about having delivered to. In addition, most embedded
baseband related devices are running on an ARM platform. So you may also look
at the ARM website, to find what partners they have. Also see:
Cellular Baseband Market Share Tracker
The most common BP manufacturer's:
Broadcom
*Freescale
Icera (NVidia)
Intel/Infineon
MediaTek
Marvell
Qualcomm
Renesas Mobile
ST-Ericcson
*Skyworks
Spreadtrum
Texas Instruments
VIA Telecom
______________________________
* Makes mostly RF related sub components.
Guessing the Baseband Product Table
In order to make an educated and good guess you need to pay close attention to
the following features/variables:
Code:
Manufacterer Brand Names eg: SMARTi
Manufacterer Sales Points eg: First all in one PoP technology
Protocol Speeds eg: "HSDPA/HSUPA at 21Mbps/5.7Mbps"
Protocol Classe(s) eg: "EDGE multislot class 33"
Supported Communication Protocols: eg: GSM, GPRS, EDGE, HDSPA etc.
Trancesiver Technology eg:
and many more. You get the point!
Here is, for example, a product list from Intel:
Code:
[SIZE=2]-------------------------------------------------------------------------------
Product Protocol Description Features
-------------------------------------------------------------------------------
1010 GSM/GPRS
[/SIZE] [SIZE=2] Based on X-GOLD 101, with the XMM1010 platform Intel pioneered the
Ultra-Low Cost market with a revolutionary 2G baseband and platform
solution.
[/SIZE] [SIZE=2] • Industry first phone on a chip: baseband, RF engine, power management and memory
• Enable low BOM for black and white handsets
• Best in class GSM/GPRS modem
1100 GSM/GPRS [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 101, the XMM1010 platform is a ULC feature evolution,
65nm "phone on a chip" integrating additional functionality such as FM
Radio, MP3 and sufficient memory to support a colour display phone
without external SRAM.
[/SIZE] [SIZE=2] • GSM, Dual SIM
• Lowest BOM by integrated FM Radio, SRAM, serial Flash and low cost PCB
• Lowest power consumption – less than 1mA idle current, best in class talk current
1180 GSM/GPRS[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 118, the XMM1180 platform is a GPRS System on a Chip
in 65nm, the high integration and possibility to use low cost PCB
makes it possible to ideal solution for lowest cost messaging and
multimedia phones.
[/SIZE] [SIZE=2] • GPRS with great multimedia performance & user experience
• Dedicated 1.3Mp Camera support, integrated FM-Radio, MP3 and USB
• Lowest power consumption – best in class talk current
2130/50 EDGE[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 213/215, the XMM2150/2150 platform is an EDGE System
on a Chip in 65nm with multimedia performance typical for higher
segments. The high integration level and possibility to use low cost
PCB makes it possible to develop lowest cost EDGE browsing and
multimedia phones.
[/SIZE] [SIZE=2] • EDGE downlink at cost of GPRS, enabling low-cost mobile browsing
• Powerful CPU for great multimedia performance
• Common software architecture for scalability from 2G to 3G
• Integrated FM-Radio
• Lowest power consumption – best in class talk current
2231 EDGE[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Form Factor Reference Design based on XGOLD223 EDGE 65nm SOCs.
3.2-inch capacitive touchscreen, 3Mpixel camera, connectivity (WIFI,
A-GPS, BT, FM Radio), Motion sensor, Electronic compass, Proximity &
ambient light sensor and slim metal-like case.
[/SIZE] [SIZE=2] • Android 2.2, updated planned to 2.3
• Scalability to 3.5-inch HVGA
• Quad band EDGE
6130 HSDPA[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 213 and SMARTI UE RF transceiver, the Intel XMM 6130
Phone Platform is a cost-optimized 3G feature phone solution enabling
affordable mobile broadband devices for Emerging Markets.
[/SIZE] [SIZE=2] • Cost-effective platform for rich multi-media and browsing experience
• Common CPU architecture enables scalability from 2G to 3G
• Worldwide proven HSDPA Rel.6 modem stack
6160 HSPA[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 616 Digital- and Analog Baseband with integrated Power
Management Unit and the 2G/3G Transceiver SMARTi UE, the XMM 6160
platform is an easy upgrade from the XMM 6080 as both are based on the
Intel Comneon Protocol Stack.
[/SIZE] [SIZE=2] • HSDPA/HSUPA capabilities of 7.2Mbps/5.7Mbps with EDGE multislot class 12
• Hardware and software interface to an application processor or a PC as wireless modem
• LP-DDR1 and NAND memory support
6260 HSPA+[/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 626 Digital- and Analog Baseband with integrated Power
Management Unit and the 2G/3G Transceiver SMARTi UE2, the XMM 6260
platform is the smallest available HSPA+ modem supporting a global
connectivity within one stock keeping unit.
[/SIZE] [SIZE=2] • HSDPA/HSUPA capabilities of 21Mbps/5.7Mbps with EDGE multislot class 33
• Penta-band 3G, Quad-band EDGE with Receive Diversity type 3i
• Supports worldwide connectivity in one design
• Extremely small PCB footprint and power consumption
• Hardware and software interfaces to applications processors or to a PC as a wireless modem
6360 DC-HSPA [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 636 Digital- and Analog Baseband with integrated Power
Management Unit and the 2G/3G Transceiver SMARTi UE3, the XMM 6360
multimode platform is the smallest available DC-HSPA modem supporting
a global connectivity within one stock keeping unit. HSDPA/HSUPA
capabilities of 42Mbps/11.5Mbps with EDGE multislot class 33
[/SIZE] [SIZE=2] • Multi-band Penta-band 3G, Quad-band EDGE for worldwide connectivity
• Supports worldwide connectivity in one design
• Excellent power consumption and extremely small PCB footprint
• Hardware and software interfaces to applications processors or to a PC as a wireless modem
7160 Multimode LTE & DC-HSPA [/SIZE] [SIZE=2]
[/SIZE] [SIZE=2] Based on X-GOLD 716 Digital- and Analog Baseband with integrated Power
Management Unit and the 2G/3G/LTE Transceiver SMARTi 4G, the XMM 7160
multimode platform is the most compact solution for LTE/DC-HSPA Smart
Phones for worldwide deployment.
[/SIZE] [SIZE=2] • LTE capabilities of 100Mbps/50Mbps
• HSDPA/HSUPA capabilities of 42Mbps/11.5Mbps with EDGE multislot class 33
• Multi-band LTE, Penta-band 3G, Quad-band EDGE for worldwide connectivity
• Excellent power consumption and extremely small PCB footprint
• Hardware and software interfaces to applications processors or to a PC as a wireless modem
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Enjoy!
<reserved to me 2>
Baseband radio/modem requirements
Which Samsung Note 3 model will operate correctly in LTA/4G under Vodafone Italy and Softbank Japan?
These 2 carriers deploy the following basebands for their networks: 20, 8, 11, 3 and 1.
All in FDD mode.
I'm concerned that I will buy a phone with the wrong radio/modem.
Please help.
Tommaso
I am buying a ownice k7 chipset UIS7862 headunit.. this guide could be very handy.. thankyou
Related
TyTN HSDPA Speed 3,6 - 7,2 Mbit/sec. possible?
hello all you austrians and germans there - hsdpa is working in some european regions up to 3,6 Mbit/sec.! my question is: is the new QUALLCOMM HSDPA chip inside the TyTN which will support 3,6 - 7,2 Mbit/sec.? this new QUALLCOMM Chipset is already shipping e.g. HUWAEI USB-Modem - or does anybody think that it will be possible to run this really fast HSDPA USB-Modem on any WM5 device with mini-usb connector, if drivers will be supported from QUALLCOMM?
The specs says "up to 1.8 Mbps".....
It's also going to be a LONG time before you see the carriers boosting their HSDPA speeds up to those levels. By then, the TyTN will seem like a Model T Ford...
3,6 - 7,2 Mbit/s = 0,45 - 0,9 MB/s 8 bits = 1 byte
The Qualcomm chip in Hermes TyTn is the 6275 which is limited to 1.8 Mb the new one 6280 can reach 3.8 Mbn and is used by two cards Sierra and Option. The real bottleneck will be the backhaul (T1/E1) since each cell site has to carry the GSM + UMTS traffic. Operators will be offering the 3.8 in selected areas only
Fake Note with Android 4.0!
I think Samsung said Android 4.0 didn't run at CPU speed under 1GHz. tinydeal.c o m / samsung-5-inches-screen-pxn5i8-p-53306 . html (pls delet spacebars) 5" large screen TFT-LCD capacitive touch screen control + bar style design built-in Google System Android 4.0 for your operation, has access to PC ----OS: Android 4.0 ----CPU: MT6573 ARMv6 Processor ----CPU Frequency: 670.10MHZ ----ROM: 164.1MB ----RAM: 443.1MB ----Screen Display: 480 x 800 Pixels GSM 850/900/1800/1900MHZ globally compatible + WCDMA(UMTS) 2100MHZ available Google Android system v4.0, Android Market, Android Latitude, Android Navigation and Android Places Access to Wireless Keyboard Dual camera support up to 8MP photo output & camcorder capability (8X digital zoom) FM radio with preset parameters for different countries WiFi + GPRS + WAP + USB for speedy data transferring and applications downloading Bluetooth for handsfree calling Applications: Email + Gmail + Google Maps + G-search + G-Talk + Facebook + MSN + Skype Entertainments: FM Radio + Camera/Camcorder + Music/Movie Player +Image Viewer+ eBook + Video Recorder + Game Handy Tools: Calendar + Alarm + Clock + Calculator + World Clock + Flashlight This Cell Phone works with 3G & 2G networks: (1)Compatible 3G network: WCDMA(UMTS) 900/2100MHZ The name UMTS (Universal Mobile Telecommunications System) is usually used in Europe. The UMTS Forum has confirmed that WCDMA is the world's most popular 3G technology. Outside of Europe, the system is also known by other names such as FOMA or W-CDMA. In marketing, it is often referred to as 3G or 3G+. (2)Compatible 1G & 2G Networks: GSM850/GSM900/DCS1800/PCS1900MHZ ----France: Bouygues, Orange, SFR GSM, Virgin ----UK: MCom, T-Moblie, TeleWare ----Ireland: Vodafone, O2, Meteor, Tesco ----Spain: Orange, Movistar, Vodafone, Simyo, Yoigo ----Portugal: Vodafone, TMN, Optimus ----USA: AT&T, T-Moblie, Fido, Suncom, Airvoice, CTC, Edge, Indigo, Tuyo, 7-Eleven, Callplus, O2, Lucas, Suncom ----Canada: Rogers, Fido ----Australia: Optus, Telstra, Vodafone, Virgin
it run but slow an laggy - its even dual sim phone
A 5inch phone with that resolution would suck. Don't forget the low ram and sucky CPU. Sent from my GT-N7000 using xda premium
hopeless.... ebhsimon said: A 5inch phone with that resolution would suck. Click to expand... Click to collapse Well the Dell Streak wasn't too bad
it's like audi 80 (that fake note) vs audi s8 (the real note) waste of money for that crap ^^
What is GSM network in mobile phones?
What is GSM? GSM (Global System for Mobile Communications, originally Groupe Spécial Mobile), is a standard developed by the European Telecommunications Standards Institute (ETSI) to describe protocols for second-generation (2G) digital cellular networks used by mobile phones. As of 2014 it has become the default global standard for mobile communications - with over 90% market share, operating in over 219 countries and territories.[2] 2G networks developed as a replacement for first generation (1G) analog cellular networks, and the GSM standard originally described a digital, circuit-switched network optimized for full duplex voice telephony. This expanded over time to include data communications, first by circuit-switched transport, then by packet data transport via GPRS (General Packet Radio Services) and EDGE (Enhanced Data rates for GSM Evolution or EGPRS). GSM carrier frequencies GSM networks operate in a number of different carrier frequency ranges (separated into GSM frequency ranges for 2G and UMTS frequency bands for 3G), with most 2G GSM networks operating in the 900 MHz or 1800 MHz bands. Where these bands were already allocated, the 850 MHz and 1900 MHz bands were used instead (for example in Canada and the United States). In rare cases the 400 and 450 MHz frequency bands are assigned in some countries because they were previously used for first-generation systems. Most 3G networks in Europe operate in the 2100 MHz frequency band. For more information on worldwide GSM frequency usage, see GSM frequency bands. Regardless of the frequency selected by an operator, it is divided into timeslots for individual phones. This allows eight full-rate or sixteen half-rate speech channels per radio frequency. These eight radio timeslots (or burst periods) are grouped into a TDMA frame. Half-rate channels use alternate frames in the same timeslot. The channel data rate for all 8 channels is 270.833 kbit/s, and the frame duration is 4.615 ms. The transmission power in the handset is limited to a maximum of 2 watts in GSM 850/900 and 1 watt in GSM 1800/1900. ---------------------- Source: Wikipedia For more information about this subject, visit this link on wikipedia
device frequency capability
Hi, Is there any (android) software to show the frequency capability of a mobile? Ideally the software shows all frequency bands that the device can do (e.g. GSM: band 5/8, UMTS: band 2/8, TD-SCDMA: band 39, LTE-TDD: band 40/41, LTE-FDD: band 7/28, Wi-Fi: 2.45GHz, Blutooth: band 2.0, etc). Or is there any other method to find the frequencies a device can do (except measuring from the outside)? Thanks!
Yes! If you can access your NV.. and have a qualcomm device 1877 - rf_bc_config 6828 -lte bc config break those out into binary and look up how to add bands to your phone, right here on XDA. If you have DFS, latest demo versions will read and populate the band info too. also see: http://forum.xda-developers.com/android/apps-games/app-qualcomm-nv-calculator-adding-2g-3g-t2915649
It's a MediaPad X2 with Cortex-A53 64-bit ARMv8 processor What is DFS? Thanks
xdvsr said: It's a MediaPad X2 with Cortex-A53 64-bit ARMv8 processor What is DFS? Thanks Click to expand... Click to collapse Device frequency settings = DFS
Fully Root for Oppo A83??? Need HELP!!!
Hi everybody! I have two major problems: Does anybody knows how to get root access on oppo A83? Is there any possibility to get that fixed? Down below i've posted some links with technical specifications about the device. Another problem is that I bought the phone in Thailand and only Asian languages are installed! But I need the European language pack! I have already searched the whole web but unfortunately found nothing. :crying: I would be very grateful for any help or advice. Thank you guy's. Sorry, I am still prohibited to publish links in my thread. So, I copied the specific data for the oppo A83 from a website and put it back here. NETWORK Technology GSM / CDMA / HSPA / LTE 2G bands GSM 850 / 900 / 1800 / 1900 - SIM 1 & SIM 2 CDMA 800 & TD-SCDMA - China 3G bands HSDPA 850 / 900 / 2100 - India, Thailand HSDPA 850 / 900 / 1900 / 2100 - China 4G bands LTE band 1(2100), 3(1800), 5(850), 8(900), 38(2600), 40(2300), 41(2500) - India, Thailand LTE band 1(2100), 3(1800), 5(850), 7(2600), 8(900), 34(2000), 38(2600), 39(1900), 40(2300), 41(2500) - China (A83t) Speed HSPA, LTE GPRS Yes EDGE Yes LAUNCH Announced 2018, January Status Available. Released 2018, January BODY Dimensions 150.5 x 73.1 x 7.7 mm (5.93 x 2.88 x 0.30 in) Weight 143 g (5.04 oz) Build Front glass, aluminum body SIM Dual SIM (Nano-SIM, dual stand-by) DISPLAY Type IPS LCD capacitive touchscreen, 16M colors Size 5.7 inches, 83.8 cm2 (~76.2% screen-to-body ratio) Resolution 720 x 1440 pixels, 18:9 ratio (~282 ppi density) Multitouch Yes - ColorOS 3.2 PLATFORM OS Android 7.1 (Nougat) Chipset Mediatek MT6763T Helio P23 CPU Octa-core 2.5 GHz Cortex-A53 GPU Mali-G71 MP2 MEMORY Card slot microSD, up to 256 GB (dedicated slot) Internal 32 GB, 3 GB RAM or 4 GB RAM (China only) CAMERA Primary 13 MP, f/2.2, autofocus, LED flash Features Geo-tagging, touch focus, face detection, HDR, panorama Video [email protected] Secondary 8 MP, f/2.2 SOUND Alert types Vibration; MP3, WAV ringtones Loudspeaker Yes 3.5mm jack Yes - Active noise cancellation with dedicated mic COMMS WLAN Wi-Fi 802.11 a/b/g/n, dual-band, WiFi Direct, hotspot Bluetooth 4.2, A2DP, LE GPS Yes, with A-GPS Radio No USB microUSB 2.0, USB On-The-Go FEATURES Sensors Accelerometer, proximity, compass Messaging SMS (threaded view), MMS, Email, Push Email Browser HTML5 - MP4/H.264 player - MP3/WAV/eAAC+/FLAC player - Document viewer - Photo/video editor BATTERY Non-removable Li-Ion 3180 mAh battery MISC Colors Champagne, Black Price About 200 EUR
same here, having oppo f5 with same chipset but theirs no way to get fastboot,until we get something official patched update.zip to bring back the fastboot crap..
{Mod edit: Quoted post deleted} Thanks for share but it seems your tool and drivers are for win7, do you have drivers for windows10? Thanks
Same Problem Here I have the same phone and i'm starting to regret buying it. Tho here are a couple of things im going to try out. You guys might as well also try it. Tho im not sure if it will work and i'm not responsible for anything that happens if you do follow these. I'm trying to make magisk work on the phone by patching the boot image but since we can't really access the fastboot, we can't unlock the bootloader and flash the modified boot image. Although what i wanna try out is using the MTK download tool to flash the modified boot image to the phone. I still don't know if it will work or not since i haven't tried it and i don't think i will later on since information about this phone is still very scarce and breaking this to the point of no return is the last thing i want to do.
can somebody help root oppo a83 please :crying::crying:
anyone manage to root it? how?
Plz someone help to root this phone
Hello can help me root oppo a83
Plz help us
no root method ???
Read This Thread and try Requesting in it... https://forum.xda-developers.com/android/apps-games/twrpbuilder-t3744253
Hello all Any one can help me To upload oppo a83 camera app only official Without full rom Need camera app only Thanks for helping me
Still no root???
yametekudasai said: Still no root??? Click to expand... Click to collapse There is no love in oppo devices
do you guys ever heard about Magisk? PalPalBoi said: Although what i wanna try out is using the MTK download tool to flash the modified boot image to the phone. Click to expand... Click to collapse MediaTek SP Flash Tool
Discontinued
This video will help you to fix your problem. _°<(-_-)>°_xXx_°<(-_-)>°_ said: Hi everybody! I have two major problems: Does anybody knows how to get root access on oppo A83? Is there any possibility to get that fixed? Down below i've posted some links with technical specifications about the device. Another problem is that I bought the phone in Thailand and only Asian languages are installed! But I need the European language pack! I have already searched the whole web but unfortunately found nothing. :crying: I would be very grateful for any help or advice. Thank you guy's. Sorry, I am still prohibited to publish links in my thread. So, I copied the specific data for the oppo A83 from a website and put it back here. NETWORK Technology GSM / CDMA / HSPA / LTE 2G bands GSM 850 / 900 / 1800 / 1900 - SIM 1 & SIM 2 CDMA 800 & TD-SCDMA - China 3G bands HSDPA 850 / 900 / 2100 - India, Thailand HSDPA 850 / 900 / 1900 / 2100 - China 4G bands LTE band 1(2100), 3(1800), 5(850), 8(900), 38(2600), 40(2300), 41(2500) - India, Thailand LTE band 1(2100), 3(1800), 5(850), 7(2600), 8(900), 34(2000), 38(2600), 39(1900), 40(2300), 41(2500) - China (A83t) Speed HSPA, LTE GPRS Yes EDGE Yes LAUNCH Announced 2018, January Status Available. Released 2018, January BODY Dimensions 150.5 x 73.1 x 7.7 mm (5.93 x 2.88 x 0.30 in) Weight 143 g (5.04 oz) Build Front glass, aluminum body SIM Dual SIM (Nano-SIM, dual stand-by) DISPLAY Type IPS LCD capacitive touchscreen, 16M colors Size 5.7 inches, 83.8 cm2 (~76.2% screen-to-body ratio) Resolution 720 x 1440 pixels, 18:9 ratio (~282 ppi density) Multitouch Yes - ColorOS 3.2 PLATFORM OS Android 7.1 (Nougat) Chipset Mediatek MT6763T Helio P23 CPU Octa-core 2.5 GHz Cortex-A53 GPU Mali-G71 MP2 MEMORY Card slot microSD, up to 256 GB (dedicated slot) Internal 32 GB, 3 GB RAM or 4 GB RAM (China only) CAMERA Primary 13 MP, f/2.2, autofocus, LED flash Features Geo-tagging, touch focus, face detection, HDR, panorama Video [email protected] Secondary 8 MP, f/2.2 SOUND Alert types Vibration; MP3, WAV ringtones Loudspeaker Yes 3.5mm jack Yes - Active noise cancellation with dedicated mic COMMS WLAN Wi-Fi 802.11 a/b/g/n, dual-band, WiFi Direct, hotspot Bluetooth 4.2, A2DP, LE GPS Yes, with A-GPS Radio No USB microUSB 2.0, USB On-The-Go FEATURES Sensors Accelerometer, proximity, compass Messaging SMS (threaded view), MMS, Email, Push Email Browser HTML5 - MP4/H.264 player - MP3/WAV/eAAC+/FLAC player - Document viewer - Photo/video editor BATTERY Non-removable Li-Ion 3180 mAh battery MISC Colors Champagne, Black Price About 200 EUR Click to expand... Click to collapse Here is the video, which will help you to get root access in your Oppo A83 Nougat device without using PC. Must Watch It:- VTECH CHANNEL ON YOUTUBE
Anyone tried KingoRoot?
Amazing Temp Root for MediaTek ARMv8
TRY NOW!! i found this, you guys can try https://www.getdroidtips.com/root-oppo-a83/ and post a confirmation if its successful so we can try aswell as i dont want to be the first to try it.